multi-carrier technology for precision personnel location
TRANSCRIPT
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Multi-Carrier Technology forPrecision Personnel Location
David Cyganski, John Orr,William Michalson, R. James Duckworth
ECE Department, WPI
Wireless Personnel Locator Requirements Assessment Focus GroupJuly 20, 2004
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CTC/WPI Requirements Assessment Focus Group2
Overview
Project motivation System requirements Present precision technologies Origin of the MC-UWB concept Technological roots of MC-UWB Technology Demonstrators Status of the project
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CTC/WPI Requirements Assessment Focus Group3
Motivation
12/3/99: On that day, six firefighters lost theirlives in a tragic cold storage warehouse fire inWorcester, MA. Two fire fighters initially got lostand then two search teams became lost in themaze due to zero visibility from the densesmoke. Six people died literally within 100 feetof safety.
9/11/01: A disaster of far greater magnitudeinvolving Firemen, Police, EMTs, etc., in whichpersonnel location would have provided fastanswers, vital command and control data andgreatly enhanced search and rescue.
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CTC/WPI Requirements Assessment Focus Group4
Project Goal
The lives of First Responders,Corrections Staff and other Public SafetyPersonnel can depend upon preciselocation information.
Our Goal: Create a system which willtrack the location of emergencyresponders in 3-D space withoutrequiring any pre-installed infrastructure
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CTC/WPI Requirements Assessment Focus Group5
Initial Focus Area
Precision, ad hoc, positioning andassociated exchange of data forsituational awareness andcommand/control for– Firefighters– Law enforcement officers– First-responders– Corrections officers– Military
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CTC/WPI Requirements Assessment Focus Group6
System Concept
Personnel Unit
Reference Unit,known location
Command and Control Unit
Communications(Optional)
Reference Unit,known location
Reference Unit,known location
Positioning signalSystem controlUser-Commander link
Phys Monitor(Optional)
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CTC/WPI Requirements Assessment Focus Group7
Real-Time Deployable Tracking
Vehicles (red)driveup to a buildinganduse reference units(blue) to locateand display tracksof fire fighters.Exits and otherkey buildingfeatures may be“marked” on thefly.
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CTC/WPI Requirements Assessment Focus Group8
… with GIS (Map) overlays.
If GIS information suchas complete floor plansare available, they canbe integrated with thetrack display to assistroute planning and other time-criticaldecisions.
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CTC/WPI Requirements Assessment Focus Group9
System Requirements Draft Fundamental capabilities:
– 3-D location of each user relative to a chosen reference point– Relative locations among users– Graphical display at command/control station– Graphical path information on all users– Self rescue information to users (audio)
Accuracy: +/- 1 ft Maximum range: 2000 ft Max number of simultaneous users: 100 Enhancements:
– Physiologic information telemetry– Integration with stored databases: geographic and structural
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CTC/WPI Requirements Assessment Focus Group10
Technical Challenges Multipath: the indoor radio environment is much
more problematic than outdoor– Signal reflections pose a fundamental issue with
respect to precision of location. Portability and quick set-up: Response vehicles
must be ready to go with the geolocationsystem immediately on arrival.– The most significant problem is reference
initialization (site self-calibration). Size, cost, power: personnel devices must be
small, very low cost and operate withoutinterruption for widespread deployment
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CTC/WPI Requirements Assessment Focus Group11
In Summary:
How do we achieve transportable (noinfrastructure) precision location on theorder of 1 foot accuracy indoors?
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CTC/WPI Requirements Assessment Focus Group12
Possible Approaches
GPS Impulse Ultra-Wideband (UWB) Inertial Nav RFID Direction Finding (angle of arrival) Dead reckoning (Pedometer/Compass)
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CTC/WPI Requirements Assessment Focus Group13
Significant Limitations:
Inertial Nav: Cost/size/performanceissues
RFID: Requires existing infrastructure,insufficient precision
Direction Finding: Multipath limited Dead reckoning (Pedometer/Compass):
Performance/usability issues
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CTC/WPI Requirements Assessment Focus Group14
Remaining Possible Approaches
GPS ?– Insufficient resolution– Insufficient signal strength inside buildings– Multipath degraded– Significantly different requirements/uses
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CTC/WPI Requirements Assessment Focus Group15
Differences from GPS Small operational area (< ~1km2) Absolute geographic reference may not
be needed User devices may be active Overall system cost must be kept low –
especially the numerous user devices Entire system must be self-initializing,
self-monitoring, self-repairing
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CTC/WPI Requirements Assessment Focus Group16
Impulse UWB
Ultra-narrow pulses enable simple isolationof direct paths from reflected paths
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CTC/WPI Requirements Assessment Focus Group17
Impulse-UWB Problems
Extremely narrow pulses imply largesignal acquisition times, difficult tracking,huge bandwidth
Pulse generation and time-windowing atreceiver may require exotic, costly, circuitry– Maintenance of pulse characteristics requires
low distortion transmitter and receiverantennas over huge bandwidths
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CTC/WPI Requirements Assessment Focus Group18
UWB Problems cont.
Conflict with regulators:– UWB industry claims no spectral allocation
needed– Other services and regulators worry about
protecting existing services Conflicting claims by UWB industry:
– High penetration capability enabled by lowfrequency components
– High precision ranging enabled by highfrequency components
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CTC/WPI Requirements Assessment Focus Group19
True benefit of I-UWB?
Marketing!– The approach is immediately appealing because of
the vivid transparency of its operation– Its short pulses on direct path transmission arrive
before any reflections and hence allow multipathelimination and precise location.
The reality is:– This compelling picture obscures the fact that short
pulses are not needed for precision location
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CTC/WPI Requirements Assessment Focus Group20
Multi-Carrier Ultra-Wideband
Super-resolution SAR/ISAR Radar– Enhances Radar resolution to centimeters
Orthogonal Frequency Division Multiplexing– A data communications innovation which allows high
speed data to be transmitted over low-qualitytelephone wires (DSL service) or via wireless
Solution found within two recent innovations:
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CTC/WPI Requirements Assessment Focus Group21
High Bandwidth Low Bandwidth
Conventional
Super-Resolution
Conventional vs. Super Resolution Radar
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CTC/WPI Requirements Assessment Focus Group22
The OFDM Concept
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CTC/WPI Requirements Assessment Focus Group23
MC-UWB Summary– Precision location (cm accuracy)– Operation in multi-path environment– Compatibility with existing communications
services– Combined location and high bandwidth
communication capability
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CTC/WPI Requirements Assessment Focus Group24
Position determination
MC-UWB method provides timedifferences between roving transmitterand reference receivers
Sophisticated signal processingtechniques are applied
Numerical solution method determinesdistances and then positions whilerejecting multipath signals
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CTC/WPI Requirements Assessment Focus Group25
Prototype Architecture
Mobile Unit
Reference Unit,fixed location
Command and Control Unitfixed locationReference Unit,
fixed location
Reference Unit,fixed location
MC-UWB signal802.11 System control
Reference Unit,fixed location
Reference units emit MC-UWBsignals during initialization phase
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CTC/WPI Requirements Assessment Focus Group26
Proof of Concept Demonstration
Used audio, not RF - greatly eased prototyping
Top audio freq. has wavelength in air of 4.5”
1:1 scale behavior with RF BW 2.625 GHz
Demo of real-time location with laptop PC
Off the shelf microphone/speaker componentscould be used thanks to the OFDM like signal
Displays true location solution and multipathsolutions
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CTC/WPI Requirements Assessment Focus Group27
Proof-of-Concept Demonstrator
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CTC/WPI Requirements Assessment Focus Group28
Demonstration
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CTC/WPI Requirements Assessment Focus Group29
System Analysis and Design
To move from concept to implementation:– Complete analysis of performance
• Mathematical performance modeling• System Engineering criteria• Simulation of end-to-end system
Prototype Construction/Evaluation– Troubleshooting/Feedback/Re-analysis
Development of encompassing technology– Auto-calibration, data exchange, …
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CTC/WPI Requirements Assessment Focus Group30
System Engineering Tools
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CTC/WPI Requirements Assessment Focus Group31
Position Solution Simulation•The MC-UWB conceptonly providesthe node-to-node distances.
•An optimizedposition solverwas needed.
•Using thissimulator manyapproacheswere evaluated
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CTC/WPI Requirements Assessment Focus Group32
Sensor Placement/System Criteria
Performance isaffected byexternal factorssuch as placementof sensors.
Simulation againplayed a largeengineering role
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CTC/WPI Requirements Assessment Focus Group33
Automatic Calibration Problem
By exchangingsignals, each RNcan determine itsdistance fromeach other RN.
The geometry ofthe configurationmust be foundfrom these inter-nodal distances
This is known as the multi-dimensional scaling (MDS) problem
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CTC/WPI Requirements Assessment Focus Group34
Prototypes Galore
Every concept,analysis andalgorithm wasconfirmedalong the waywith aprototype andlab test.
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CTC/WPI Requirements Assessment Focus Group35
Demonstrator Target Systems
Goal: construct demonstration systemsthat allow evaluation of MC-UWB approach
Two RF based “Software Radio”demonstration systems being constructed
– Wideband (50 MHz) system at 400 MHz
– Narrowband (6 MHz) system at 2.4 GHz
Let’s take a closer look at the engineering of thewideband system implementation…
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CTC/WPI Requirements Assessment Focus Group36
RF and Software Radio Design RF Electronics for 440 MHz Software Radio
Phase 1:
6 MHz bandwidth
50 MSamples/sec
Phase 2:
50 MHz bandwidth
200 MSamples/sec
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CTC/WPI Requirements Assessment Focus Group37
Receiver RF Chain
A/D
FPGA (PCinterface)
Antenna
Mixer
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CTC/WPI Requirements Assessment Focus Group38
Digital/RF Testing
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CTC/WPI Requirements Assessment Focus Group39
Embedded System Design
Transmitter requirements– Continuously transmits the OFDM signal– Must be small, lightweight, and have low
power consumption (battery powered) Receiver requirements
– Self configuring– Continuously receives transmitter signals to
determine position in 3-dimension– Complex signal processing
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CTC/WPI Requirements Assessment Focus Group40
Example System Implementations
Use high density integrated circuits– Very versatile, code can be upgraded– Microcontrollers
• Like PC but much smaller and more reliable!– Field Programmable Gate Arrays (FPGAs)
• Devices with >1,000,000 gates• Need special programming languages
– VHDL» VHSIC HDL» Very High Speed Integrated Circuit
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CTC/WPI Requirements Assessment Focus Group41
Designing receiver and transmitter boards
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CTC/WPI Requirements Assessment Focus Group42
Designing the new chips - pins!
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CTC/WPI Requirements Assessment Focus Group43
Inside the integrated circuits
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CTC/WPI Requirements Assessment Focus Group44
Simulating the Receiver and Transmitter
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CTC/WPI Requirements Assessment Focus Group45
Status DOJ/NIJ Support: $996,497 Analytic, simulation and proof-of-concept, system
optimization, performance analysis completed Selection/optimization of TDOA position solver and
evaluation of geometric effects completed Five reference node 3D location demonstrated Two RF based demonstration systems (narrowband and
wideband) at 400 MHz and 2.4 GHz under constructionbased on Software Radio Design
Wideband and narrowband concept tests successful– 1 foot in 12000 km resolution with 100 KHz wide signal!
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CTC/WPI Requirements Assessment Focus Group46
Next Steps Complete construction and
troubleshooting of the two RFdemonstrators
– Narrowband demo: Q3-Q4, 2004– Wideband demo: Q1, 2005
Introduce all-encompassing software andhardware systems: Q2, 2005
Complete Precision Indoor LocationSystem Demonstration: Q3, 2005
Commercialization follows